Nuclear is paradoxically right at hand, and out of reach.įor that to change, “new nuclear” has to emerge before the old nuclear plants recede. Everyone wants a steady supply of electricity, without relying on coal. But while the existing plants finally operate with enviable efficiency (after 40 years of working out the kinks), the next generation of designs is still a decade away from being more than a niche player in our energy supply. Nuclear should be a climate solution, satisfying both technical and economic needs. electricity, and 50% of its carbon-free electricity. There are 93 operating nuclear reactors in the U.S. It makes for a decidedly odd moment in the life of a technology that already altered the course of one century, and now wants to make a difference in another. and speed up new technologies domestically and overseas. announced its support for Poland, Kenya, Ukraine, Brazil, Romania and Indonesia to develop their own new nuclear plants-while European negotiators assured that nuclear energy counts as “green.” All the while, Democrats and Republicans are (to everyone’s surprise) often aligned on nuclear’s benefits-and, in many cases, putting their powers of the purse behind it, both to keep old plants open in the U.S. (In October, French President Emmanuel Macron backed off plans to close 14 reactors, and in November, he announced the country would instead start building new ones.) At the U.N. that had planned to phase out nuclear are instead doubling down. Yet climate-focused nations like France and the U.K. Economically, they struggle to compete with cheap natural gas, along with wind and solar, often subsidized by governments. ”If this technology was brand-‘new’-like if fission was a recent breakthrough out of a lab, 10 or 15 years ago-we’d be talking about building our 30th reactor,” DeWitte says.īut fission is an old, and fraught, technology, and utility companies are scrambling now to keep their existing gargantuan nuclear plants open. Oklo’s 30 employees are busy untangling the knots of safety and complexity that sent the cost of building nuclear plants to the stratosphere and all but halted their construction in the U.S. Unlike today’s plants, which run most efficiently at full blast, making it challenging for them to adapt to a grid increasingly powered by variable sources (not every day is sunny, or windy), the next generation of nuclear technology wants to be more flexible, able to respond quickly to ups and downs in supply and demand.Įngineering these innovations is hard. And climate hawks should fawn over a zero-carbon energy option that complements burgeoning supplies of wind and solar power. Venture capitalists can get behind the potential to scale to a global market. Nuclear plants need no longer be bet-the-company big, even for giant utilities. But producing units in a factory would give the company a chance to improve its processes and to lower costs. The per-megawatt construction costs might be higher, at least at first. If existing plants are the energy equivalent of a 2-liter soda bottle, with giant, 1,000-megawatt-plus reactors, Oklo’s strategy is to make reactors by the can. Then building more and incrementally larger reactors until their zero-carbon energy source might meaningfully contribute to the global effort to reduce fossil-fuel emissions. In Oklo’s case, that means starting with a “microreactor” designed for remote communities, like Alaskan villages, currently dependent on diesel fuel trucked, barged or even flown in, at an exorbitant expense. After that, they want to do for neighborhood nukes what Tesla has done for electric cars: use a niche and expensive first version as a stepping stone toward cheaper, bigger, higher-volume products. But DeWitte plans to flip the switch on his first reactor around 2023, a mere decade after co-founding his company, Oklo. Fuel is hard to come by-they don’t sell uranium at the Gas-N-Sip. Regulations are understandably exhaustive. Building a working reactor-even a very small one-requires precise and painstaking efforts of both engineering and paper pushing. But more often DeWitte calls it by another name: a nuclear reactor.įission isn’t for the faint of heart. ”It’s a metallic thermal battery,” he says, coyly. DeWitte’s little power plant will run for a decade without refueling and, amazingly, will emit no carbon. Under carefully controlled conditions, they will interact to produce heat, which in turn will make electricity-1.5 megawatts’ worth, enough to power a neighborhood or a factory. In real life, it will be about the size of a hot tub, and made from an array of exotic materials, like zirconium and uranium. In red marker, it looks like a beer can in a Koozie, stuck with a crazy straw. On a conference-room whiteboard in the heart of Silicon Valley, Jacob DeWitte sketches his startup’s first product. A rendering of an Oklo Aurora power plant Credit - Courtesy Oklo/Gensler
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